Network Environ Perspective
for Urban Metabolism and Carbon Emissions: A Case Study of Vienna,
Austria
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Abstract
Cities are considered major contributors to global warming,
where carbon emissions are highly embedded in the overall urban metabolism.
To examine urban metabolic processes and emission trajectories we
developed a carbon flux model based on Network Environ Analysis (NEA).
The mutual interactions and control situation within the urban ecosystem
of Vienna were examined, and the system-level properties of the city’s
carbon metabolism were assessed. Regulatory strategies to minimize
carbon emissions were identified through the tracking of the possible
pathways that affect these emission trajectories. Our findings suggest
that indirect flows have a strong bearing on the mutual and control
relationships between urban sectors. The metabolism of a city is considered
self-mutualistic and sustainable only when the local and distal environments
are embraced. Energy production and construction were found to be
two factors with a major impact on carbon emissions, and whose regulation
is only effective via ad-hoc pathways. In comparison with the original
life-cycle tracking, the application of NEA was better at revealing
details from a mechanistic aspect, which is crucial for informed sustainable
urban management